Combining polymers in blends creates materials with tailored properties, improving toughness, chemical resistance, and thermal performance for industrial use.

The Hong Kong University of Science and Technology (HKUST) has partnered with Gammon Construction Limited (Gammon), Swire Properties, and AXA Climate ...

By adjusting a simple chemical ratio, scientists discovered a new way to control exotic quantum states that could underpin the next generation of quantum computers.

Utrecht University researchers Rodolfo Subert and Marjolein Dijkstra show in their latest study that complex ...

Scientists have cracked a key mystery behind spider silk’s legendary strength and flexibility. They discovered that tiny ...

Scientists have finally combined the best of both worlds into a new, impact-resistant material called a compleximer.

Many apparel companies adopt a three-layer system approach to keep wearers warm, dry and comfortable. Specifically, there is ...

Proteins are the building blocks of life. These biomolecules comprise chains of amino acids that fold into precise shapes to ...

Inspired by the shape-shifting skin of octopuses, Penn State researchers developed a smart hydrogel that can change ...

King's College London and San Diego State University in California have finally decoded the "molecular stickers" that make spider silk stronger than steel and tougher than Kevlar.

Researchers at Penn State have developed a fabrication method that can print multifunctional “smart synthetic skin” — ...

By adjusting the ratio of two ingredients, UChicago PME & WVU scientists can switch exotic quantum states on and off in ...